CN203386197U - Touch screen body structure, touch display screen and touch key device - Google Patents

Abstract

The utility model provides a touch screen body structure. The touch screen body structure comprises a panel, a touch conducting body and an adhesion layer, wherein the touch conducting body comprises a touch sensing portion and a flexible connection portion, the touch sensing portion comprises a first conducting layer and a second conducting layer which face to each other, the flexible connection portion is formed by extending one side of the touch sensing portion outwards, the flexible connection portion is integrated with the touch sensing portion, the flexible connection portion is provided with a first conducting circuit in electric connection with the first conducting layer and a second conducting circuit in electric connection with the second conducting layer, and the adhesion layer is arranged between the panel and the touch sensing layer and is used for adhering the panel and the touch sensing layer. The flexible connection portion of the touch screen body structure directly extends out of a substrate of the touch sensing layer, corresponding manufacture of the conducting circuits is completed on the substrate, and integration of the flexible connection portion and the touch sensing layer is achieved. The utility model further provides a touch display screen and a touch key device.

Description

Screen body of touch screen structure, touch display screen and touch button device

Technical field

The utility model relates to the display technique field, relates in particular to a kind of screen body of touch screen structure, touch display screen and touch button device.

Background technology

The screen body of touch screen structure technology is as a branch of touch technology, and easy to wear, the problem such as the life-span is short that have solved that traditional mechanical key input mode exists, determine the touch location of pointing by the subtle change that detects electric charge.Compared to mechanical key and resistance-type button, capacitive touch screen screen body structure is not only durable, cheap, simple in structure, and is easy to install water proof anti-soil; But also there are a lot of problems in it, because there is no mechanical realization, all detections are all the subtle change of electric weight, make it very responsive to various interference, therefore how to guarantee that the accuracy of screen body of touch screen structure seems particularly important.

Flexible PCB is to take polyimide or mylar a kind ofly to have a height reliability as what base material was made, excellent flexible printed circuit, be called for short soft board or FPC(FlexiblePrintedCircuit), have that distribution density is high, lightweight, the characteristics of thin thickness.Nesa coating is connected with external circuits by FPC, with the position signalling by the nesa coating perception, is transferred in processor, is identified, and determines touch location.

Yet, when existing nesa coating is connected with external circuits by FPC, first by the laminating of the lead-in wire of FPC and nesa coating zone, and then be connected with printed circuit board (PrintedCircuitBoard, PCB), cause production efficiency low.

The utility model content

Based on this, be necessary to provide a kind of can be cost-saving, screen body of touch screen structure, touch display screen and touch button device that production efficiency is high.

A kind of screen body of touch screen structure of the utility model comprises:

Panel;

Touch conductor, comprise touch sensible section and flexible joint section, described touch sensible section comprises the first relative conductive layer, the second conductive layer; Described flexible joint section is stretched and is formed by an epitaxial lateral overgrowth of described touch sensible section, described flexible joint section and described touch sensible section are one, described flexible joint section is provided with the first conducting circuit be electrically connected to the first conductive layer, and the second conducting circuit be electrically connected to the second conductive layer;

Bonding coat, be located between described panel and touch sensitive layer, for bonding described panel and described touch sensitive layer.

In embodiment, described touch conductor comprises therein:

The first substrate, comprise first surface and the second surface relative with first surface, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Establish the first latticed groove at the induction zone of described first surface, described the first conductive layer is formed at the first latticed groove; The induction zone of described second surface is established the second latticed groove, and described the second conductive layer is formed at the second latticed groove;

Described the first conducting circuit is arranged on the flexible region of first surface, and described the second conducting circuit is arranged on the flexible region of second surface.

In embodiment, described touch conductor comprises therein:

The first substrate, comprise relative first surface and second surface, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus, be located at the bottom of the first surface of the first substrate on, establish the first matrix groove on the induction zone of described the first hypothallus away from the surface correspondence of the first substrate, described the first conductive layer is formed at the first matrix groove;

The second hypothallus, be located on the second surface of the first substrate, on the induction zone away from the surface correspondence of the first substrate on described the second hypothallus, establishes the second matrix groove, and described the second conductive layer is formed in the second matrix groove;

Described the first conducting circuit is located at flexible region corresponding to described the first hypothallus, and described the second conducting circuit is located at flexible region corresponding to described the second hypothallus.

In embodiment, described touch conductor comprises therein: the first inductive layer and the second inductive layer, and described the first inductive layer and the second inductive layer bonding connection,

The first inductive layer comprises the first substrate, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Induction zone corresponding in the first substrate is established the first latticed groove, and the first conductive layer is formed at the described first latticed groove;

The second inductive layer comprises the second substrate, and in the second substrate, the induction zone of corresponding the first substrate is established the second groove, and the second conductive layer is formed at the second groove;

Described the first conducting circuit is located at flexible region corresponding to the first substrate; Described the second conducting circuit is located at the second substrate flexible region corresponding with the first substrate.

In embodiment, described touch conductor comprises the first inductive layer and the second inductive layer therein, described the first inductive layer and the second inductive layer bonding connection,

The first inductive layer comprises the first substrate and is bonding on the first hypothallus of the first substrate, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus is established the first matrix groove corresponding to the induction zone of described the first substrate, and the first conductive layer is formed at the first matrix groove;

The second inductive layer comprises the second substrate and is bonding on the second hypothallus of the second substrate, and the induction zone of corresponding the first substrate of the second hypothallus is established the second matrix groove, and the second conductive layer is formed at the second matrix groove;

Described the first conducting circuit is located on the first hypothallus corresponding with the flexible region of described the first substrate, and described the second conducting circuit is located on the second hypothallus corresponding with the flexible region of described the first substrate.

In embodiment, described touch conductor comprises therein:

The first basalis, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Described induction zone is provided with the first latticed groove, and the first conductive layer is formed at the first latticed groove;

The first hypothallus, be located at the surface that the first basalis is located at the first latticed groove, away from the surface of the first basalis, establishes the first matrix groove, and the second conductive layer is formed at the first matrix groove;

Described the first conducting circuit is located at the flexible region that the first basalis is corresponding, and described the second conducting circuit is located at the surface of first hypothallus corresponding with the flexible region of the first basalis.

In embodiment, described touch conductor comprises therein:

The first basalis, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus, be located at the first basalis surface, corresponding to the surface away from the first basalis of induction zone, establishes the first matrix groove, and described the first conductive layer is formed at the first matrix groove;

The second hypothallus, be located at the first hypothallus surface, described the first hypothallus, between the first basalis and the second hypothallus, is established the second matrix groove corresponding to the second hypothallus of induction zone away from the surface of the first hypothallus, and the second conductive layer is formed at the second matrix groove;

Described the first conducting circuit is located at the surface of first hypothallus corresponding with flexible region, and described the second conducting circuit is located at the surface of second hypothallus corresponding with flexible region.

In embodiment, also comprise many lead-in wire electrodes therein, described the first conductive layer is electrically connected to and is connected to control circuit with described lead-in wire electrode, and described the second conductive layer is electrically connected to and is connected to control circuit with described lead-in wire electrode.

A kind of touch display screen also is provided on the other hand, comprises screen body of touch screen structure as the aforementioned.

A kind of touch button device also is provided, comprises screen body of touch screen structure as the aforementioned.

The flexible joint parts of above-mentioned screen body of touch screen structure directly extend out from the substrate of inductive layer, and complete the making of corresponding conducting circuit thereon, realize the integrated of touch sensitive layer and flexible joint parts.Directly save the operation of laminating, simplify and make flow process, use manpower and material resources sparingly, reduce cost of products.

The accompanying drawing explanation

The structural representation that Fig. 1 is the described screen body of touch screen structure of the utility model embodiment mono-;

The floor map that Fig. 2 is the described screen body of touch screen structure of the utility model embodiment mono-;

The structural representation of the touch sensitive layer that Fig. 3 is the described screen body of touch screen structure of the utility model embodiment mono-;

The mesh shape schematic diagram that Fig. 4～7 are the described screen body of touch screen structure of the utility model embodiment mono-;

The structural representation of the touch sensitive layer that Fig. 8 is the described screen body of touch screen structure of the utility model embodiment bis-;

The structural representation of the touch sensitive layer that Fig. 9 is the described screen body of touch screen structure of the utility model embodiment tri-;

The structural representation of the touch sensitive layer that Figure 10 is the described screen body of touch screen structure of the utility model embodiment tetra-;

The structural representation of the touch sensitive layer that Figure 11 is the described screen body of touch screen structure of the utility model embodiment five;

The structural representation of the touch sensitive layer that Figure 12 is the described screen body of touch screen structure of the utility model embodiment six.

Embodiment

For above-mentioned purpose, the feature and advantage that make the screen body of touch screen structure can become apparent more, the embodiment below in conjunction with accompanying drawing to the screen body of touch screen structure is described in detail.A lot of details have been set forth in the following description so that fully understand the screen body of touch screen structure.But the screen body of touch screen structure can be implemented much to be different from alternate manner described here, those skilled in the art can be in the situation that do similar improvement without prejudice to the utility model intension, so the screen body of touch screen structure is not subject to the restriction of following public concrete enforcement.

Unless otherwise defined, all technology that this paper is used are identical with the implication that the those skilled in the art that belong to the screen body of touch screen structure understand usually with scientific terminology.The term used in the instructions of screen body of touch screen structure herein, just in order to describe the purpose of specific embodiment, is not intended to be restriction screen body of touch screen structure.Term as used herein " and/or " comprise one or more relevant Listed Items arbitrarily with all combinations.

Embodiment mono-

Please refer to Fig. 1, Fig. 2, screen body of touch screen structure 10 comprises panel 12, bonding coat 14, touches conductor 15, and touch sensitive layer 16 is binded by bonding coat 14 with panel 12.

Panel is for attractive in appearance and protection button, and the material of panel can be the non-conducting materials such as plastic and glass, and such as being PMMA, thickness is 1.0～1.5mm.Bonding coat is transparent optical cement, such as being OCA optical cement or transparent UV glue.

Touch conductor 15 and comprise touch sensible section and flexible joint section, described touch sensible section comprises the first relative conductive layer, the second conductive layer.Described flexible joint section is stretched and is formed by an epitaxial lateral overgrowth of described touch sensible section.Described flexible joint section and described touch sensible section are one.Described flexible joint section is provided with the first conducting circuit be electrically connected to the first conductive layer, and the second conducting circuit be electrically connected to the second conductive layer.

Refer to Fig. 3, in illustrated embodiment, described touch conductor comprises the first substrate 120, the first conductive layer 140, the second conductive layer 160.

Concrete, the first substrate 120 comprises that first surface 112 comprises induction zone 116 and the flexible region 118 of stretching formation from described induction zone 116 1 epitaxial lateral overgrowths with second surface 114, the first substrates 120 relative with first surface.The width of flexible region 118 is less than the width of induction zone 116.At described first surface, corresponding induction zone 116 is established the first latticed groove 122, and described the first conductive layer 140 is formed at the first latticed groove 122.The flexible region 118 of first surface 112 correspondences is established the first conducting circuit 170.The first conducting circuit 170 is electrically connected to the first conductive layer 140.The induction zone 116 of described second surface 114 correspondences is established the second latticed groove 113.Described the second conductive layer 160 is formed at the second latticed groove 113.The flexible region 118 of second surface 114 correspondences is established the second conducting circuit 180.The second conducting circuit 180 is electrically connected to the second conductive layer 160.

Touch conductor and also comprise that lead-in wire electrode 190, the first conducting circuits 170 are electrically connected to by lead-in wire electrode 190 with the first conductive layer 140, the second conducting circuit 180 is electrically connected to by lead-in wire electrode 190 with the second conductive layer 160.

Wherein, lead-in wire electrode 190, the first conducting circuit 170, the second conducting circuit 180 can be latticed or strip, and latticed lead-in wire electrode is contained in latticed groove, and recess width is 0.2 μ m～5 μ m, is highly 2 μ m～6 μ m.The lead-in wire electrode of strip forms by serigraphy or inkjet printing.Its minimum widith can be 10 μ m～200 μ m, can be highly 5 μ m～10 μ m.The first conducting circuit 122 is latticed or striped, and latticed conducting circuit is formed by the latticed groove that is filled with conductive material or is protruding latticed conductor wire or conduction line segment.

The groove width of the first latticed groove 122 is 0.2 μ m～5 μ m, and groove depth is 2 μ m～6 μ m, and the groove width of the first latticed groove and the ratio of groove depth are greater than 1; The mesh shape of the first latticed groove 122 is regular grid or random grid, can be regular hexagon, square, and any one in rhombus or random grid, as shown in Fig. 4-7.

The first conductive layer 140, the second conductive layer 160 are transparence, and lead-in wire electrode 190 is transparence.

In the present embodiment, also provide a kind of touch display screen, comprise aforesaid screen body of touch screen structure.A kind of touch button device also is provided in addition, comprises aforesaid screen body of touch screen structure.

The flexible joint parts of above-mentioned screen body of touch screen structure directly extend out from the substrate of inductive layer, and complete the making of corresponding conducting circuit thereon, realize the integrated of touch sensitive layer and flexible joint parts.Directly save the operation of laminating, simplify and make flow process, use manpower and material resources sparingly, reduce cost of products.

Embodiment bis-

Refer to Fig. 8, in the illustrated embodiment, described touch conductor comprises the first substrate 220, the first hypothallus 210, the second hypothallus 230, the first conductive layer 240, the second conductive layer 260.

Concrete, the first substrate 220 comprises relative first surface and second surface (figure does not indicate).Described the first substrate 220 comprises induction zone 216 and the flexible region 218 of stretching formation from described induction zone 216 1 epitaxial lateral overgrowths.The width of flexible region 218 is less than the width of induction zone 216.

On the first hypothallus 210 is fitted at the bottom of the first surface of the first substrate 220.Establish the first matrix groove 222 on the induction zone of described the first hypothallus 210 away from the first surface of the first substrate 220, described the first conductive layer 240 is formed at the first matrix groove 222.

The second hypothallus 230 is fitted on the second surface of the first substrate 210, on the induction zone away from the first substrate 210 on described the second hypothallus 230, establishes the second matrix groove 213, and described the second conductive layer 240 is formed at the second matrix groove 213.

Described the first conducting circuit 270 is located at the flexible region of described the first hypothallus 210 correspondences, and described the second conducting circuit 280 is located at the flexible region of described the second hypothallus 230 correspondences.

Touch conductor and also comprise that lead-in wire electrode 290, the first conducting circuits 270 are electrically connected to by lead-in wire electrode 290 with the first conductive layer 240, the second conducting line 280 tunnels are electrically connected to by lead-in wire electrode 290 with the second conductive layer 260.

Screen body of touch screen structure and the structure in embodiment mono-in the present embodiment are roughly the same, do not repeat them here.

Embodiment tri-

Refer to Fig. 9, in the illustrated embodiment, described touch conductor comprises the first inductive layer 310 and the second inductive layer 330, and described the first inductive layer 310 and the second inductive layer 330 are by bonding coat 319 bonding connections.

The first inductive layer 310 comprises the first substrate 320, induction zone 316 and the flexible region 318 of stretching formation from described induction zone 316 1 epitaxial lateral overgrowths.In the first substrate 320, corresponding induction zone is established the first latticed groove 322, the first conductive layers 340 and is formed at the first latticed groove 322.

The second inductive layer 330 comprises that the induction zone of corresponding the first substrate 320 in the second substrate 350, the second substrates 350 establishes the second groove 313, the second conductive layers 360 and be formed at the second groove 313.

Described the first conducting circuit 370 is located at the flexible region of the first substrate 320 correspondences.Described the second conducting circuit 380 is located at the second substrate 330 flexible region corresponding with the first substrate 320.

Touch conductor and also comprise that lead-in wire electrode 390, the first conducting circuits 370 are electrically connected to by lead-in wire electrode 390 with the first conductive layer 340, the second conducting line 380 tunnels are electrically connected to by lead-in wire electrode 390 with the second conductive layer 360.Screen body of touch screen structure and the structure in embodiment mono-in the present embodiment are roughly the same, do not repeat them here.

Embodiment tetra-

Refer to Figure 10, in the illustrated embodiment, described touch conductor comprises the first inductive layer 411 and the second inductive layer 412, and described the first inductive layer 411 and the second inductive layer 412 are by bonding coat 419 bonding connections.

The first inductive layer 411 comprises the first substrate 420 and is bonding on the first hypothallus 430 of the first substrate 420, the flexible region 418 that described the first substrate 420 is divided into induction zone 416 and stretches formation from described induction zone 416 1 epitaxial lateral overgrowths.The induction zone of corresponding the first substrate 420 of the first hypothallus 430 is established the first matrix groove 422, the first conductive layers 440 and is formed at the first matrix groove 422.

The induction zone that the second inductive layer 412 comprises the second substrate 410 and is bonding on corresponding first substrate 420 of the second hypothallus 450, the second hypothallus 450 of the second substrate 410 is established the second matrix groove 413, the second conductive layers 460 and is formed at the second matrix groove 413.

Described the first conducting circuit 470 is located on the first hypothallus 430 corresponding with the flexible region of described the first substrate 420, and described the second conducting circuit 480 is located on the surface of the second hypothallus 450 corresponding with the flexible region of described the first substrate 420.

Touch conductor and also comprise that lead-in wire electrode 490, the first conducting circuits 470 are electrically connected to by lead-in wire electrode 490 with the first conductive layer 440, the second conducting line 480 tunnels are electrically connected to by lead-in wire electrode 490 with the second conductive layer 460.

Screen body of touch screen structure and the structure in embodiment mono-in the present embodiment are roughly the same, do not repeat them here.

Embodiment five

Refer to Figure 11, in the illustrated embodiment, described touch conductor comprises the first basalis 510, the first hypothallus 530, the first conducting circuit 570, the second conducting circuit 580.

Concrete, the first basalis 510 comprises induction zone 516 and the flexible region 518 of stretching formation from described induction zone 516 1 epitaxial lateral overgrowths.Described induction zone 516 is provided with the first latticed groove 522, the first conductive layers 540 and is formed at the first latticed groove 522.

The first hypothallus 530 fits in the surface that the first basalis 530 is located at the first latticed groove 522.Establish the first matrix groove 513, the second conductive layers 560 away from the surface of the first basalis 530 and be formed at the first matrix groove 513.

Described the first conducting circuit 570 is located at the flexible region of the first basalis 510 correspondences.Described the second conducting circuit 580 is located at the surface of first hypothallus 530 corresponding with the flexible region of the first basalis 510.

Touch conductor and also comprise that lead-in wire electrode 590, the first conducting circuits 570 are electrically connected to by lead-in wire electrode 590 with the first conductive layer 540, the second conducting line 580 tunnels are electrically connected to by lead-in wire electrode 590 with the second conductive layer 560.

Screen body of touch screen structure and the structure in embodiment mono-in the present embodiment are roughly the same, do not repeat them here.

Embodiment six

Refer to Figure 12, in the illustrated embodiment, described touch conductor comprises the first basalis 610, the first hypothallus 620, the second hypothallus 630.

Concrete, the first basalis 610 comprises induction zone 616 and the flexible region 618 of stretching formation from described induction zone 616 1 epitaxial lateral overgrowths.

The first hypothallus 620 is attached to the first basalis 610 surfaces, corresponding to the surface away from the first basalis 610 of induction zone, establishes the first matrix groove 622, and described the first conductive layer 670 is formed at the first matrix groove 622.

The second hypothallus 630 is fitted in the first hypothallus 620 surfaces, described the first hypothallus 620 is between the first basalis 610 and the second hypothallus 630, establish the second matrix groove 613, the second conductive layers 660 corresponding to the second hypothallus 630 of induction zone 616 away from the surface of the first hypothallus 620 and be formed at the second matrix groove 613.

Described the first conducting circuit 670 is located at the surface of first hypothallus 620 corresponding with flexible region, and described the second conducting circuit 680 is located at the surface of second hypothallus 630 corresponding with flexible region.

Touch conductor and also comprise that lead-in wire electrode 690, the first conducting circuits 670 are electrically connected to by lead-in wire electrode 690 with the first conductive layer 640, the second conducting line 680 tunnels are electrically connected to by lead-in wire electrode 690 with the second conductive layer 660.

Screen body of touch screen structure and the structure in embodiment mono-in the present embodiment are roughly the same, do not repeat them here.

The above embodiment has only expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (10)

1. a screen body of touch screen structure, is characterized in that, comprising:

Panel;

Touch conductor, comprise touch sensible section and flexible joint section, described touch sensible section comprises the first relative conductive layer, the second conductive layer; Described flexible joint section is stretched and is formed by an epitaxial lateral overgrowth of described touch sensible section, described flexible joint section and described touch sensible section are one, described flexible joint section is provided with the first conducting circuit be electrically connected to the first conductive layer, and the second conducting circuit be electrically connected to the second conductive layer;

Bonding coat, be located between described panel and touch sensitive layer, for bonding described panel and described touch sensitive layer.

2. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises:

The first substrate, comprise first surface and the second surface relative with first surface, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Establish the first latticed groove at the induction zone of described first surface, described the first conductive layer is formed at the first latticed groove; The induction zone of described second surface is established the second latticed groove, and described the second conductive layer is formed at the second latticed groove;

Described the first conducting circuit is arranged on the flexible region of first surface, and described the second conducting circuit is arranged on the flexible region of second surface.

3. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises:

The first substrate, comprise relative first surface and second surface, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus, be located at the bottom of the first surface of the first substrate on, establish the first matrix groove on the induction zone of described the first hypothallus away from the surface correspondence of the first substrate, described the first conductive layer is formed at the first matrix groove;

The second hypothallus, be located on the second surface of the first substrate, on the induction zone away from the surface correspondence of the first substrate on described the second hypothallus, establishes the second matrix groove, and described the second conductive layer is formed in the second matrix groove;

Described the first conducting circuit is located at flexible region corresponding to described the first hypothallus, and described the second conducting circuit is located at flexible region corresponding to described the second hypothallus.

4. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises: the first inductive layer and the second inductive layer, and described the first inductive layer and the second inductive layer bonding connection,

The first inductive layer comprises the first substrate, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Induction zone corresponding in the first substrate is established the first latticed groove, and the first conductive layer is formed at the described first latticed groove;

The second inductive layer comprises the second substrate, and in the second substrate, the induction zone of corresponding the first substrate is established the second groove, and the second conductive layer is formed at the second groove;

Described the first conducting circuit is located at flexible region corresponding to the first substrate; Described the second conducting circuit is located at the second substrate flexible region corresponding with the first substrate.

5. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises the first inductive layer and the second inductive layer, described the first inductive layer and the second inductive layer bonding connection,

The first inductive layer comprises the first substrate and is bonding on the first hypothallus of the first substrate, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus is established the first matrix groove corresponding to the induction zone of described the first substrate, and the first conductive layer is formed at the first matrix groove;

The second inductive layer comprises the second substrate and is bonding on the second hypothallus of the second substrate, and the induction zone of corresponding the first substrate of the second hypothallus is established the second matrix groove, and the second conductive layer is formed at the second matrix groove;

Described the first conducting circuit is located on the first hypothallus corresponding with the flexible region of described the first substrate, and described the second conducting circuit is located on the second hypothallus corresponding with the flexible region of described the first substrate.

6. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises:

The first basalis, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

Described induction zone is provided with the first latticed groove, and the first conductive layer is formed at the first latticed groove;

The first hypothallus, be located at the surface that the first basalis is located at the first latticed groove, away from the surface of the first basalis, establishes the first matrix groove, and the second conductive layer is formed at the first matrix groove;

Described the first conducting circuit is located at the flexible region that the first basalis is corresponding, and described the second conducting circuit is located at the surface of first hypothallus corresponding with the flexible region of the first basalis.

7. screen body of touch screen structure as claimed in claim 1, is characterized in that, described touch conductor comprises:

The first basalis, the flexible region that described the first substrate is divided into induction zone and stretches formation from described induction zone one epitaxial lateral overgrowth;

The first hypothallus, be located at the first basalis surface, corresponding to the surface away from the first basalis of induction zone, establishes the first matrix groove, and described the first conductive layer is formed at the first matrix groove;

The second hypothallus, be located at the first hypothallus surface, described the first hypothallus, between the first basalis and the second hypothallus, is established the second matrix groove corresponding to the second hypothallus of induction zone away from the surface of the first hypothallus, and the second conductive layer is formed at the second matrix groove;

Described the first conducting circuit is located at the surface of first hypothallus corresponding with flexible region, and described the second conducting circuit is located at the surface of second hypothallus corresponding with flexible region.

8. screen body of touch screen structure as claimed in claim 1, it is characterized in that, also comprise many lead-in wire electrodes, described the first conductive layer is electrically connected to and is connected to control circuit with described lead-in wire electrode, and described the second conductive layer is electrically connected to and is connected to control circuit with described lead-in wire electrode.

9. a touch display screen, is characterized in that, comprises screen body of touch screen structure as described as claim 1-8 any one.

10. a touch button device, is characterized in that, comprises screen body of touch screen structure as described as claim 1-8 any one.

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